if the changes in the expression selleck products levels of toxin genes in the fluoroquinolone resistant mutants affected cytotoxicity for phagocytes, cytotoxicity assays were performed by incubating mouse peritoneal PF-6463922 supplier macrophages with cell-free filtrates of the centrifuged bacterial cultures. The levels of cytotoxicity were compared by measuring the amount of lactate dehydrogenase (LDH) released from the lysed macrophages. The relative cytotoxicity was about threefold lower (P= 0.0131) in 13124R than in ATCC 13124 (Figure 3). The supernatant of NCTRR showed about 1.4-fold higher cytotoxicity than that BIBW2992 of NCTR. Microscopic observation also indicated that macrophages treated with bacterial culture media from ATCC 13124 and NCTRR were rounded off and detached from the surface (Additional file 3). Figure 3 Comparison of cytotoxicity of two gatifloxacin-resistant C. perfringens mutant strains, 13124

R and NCTR R , with their wild type parents, strains ATCC 13124 and NCTR, for peritoneal macrophages, as measured by LDH (lactate dehydrogenase) released. Morphological examination Gram staining of log phase cultures showed that gatifloxacin resistance selection affected the shape of cells (Additional file 4). As expected, the Gram reaction was positive for both wild types and their mutants. The resistant mutants were more elongated than the wild types but the amounts of elongation and differences in cell shape were much more pronounced for the

NCTR/NCTRR strain pair than for the ATCC 13214/13124R strain pair. Fluoroquinolone resistance selection also affected the colony morphology of the resistant strains. The colony size of NCTRR was bigger than that of the wild type, and the colony size of 13124R was smaller than that of the wild Aprepitant type (Additional file 4). Discussion The use of fluoroquinolones has been listed as a risk factor for the emergence of virulent antibiotic-resistant strains of some bacteria [21–23]. We studied the effect of fluoroquinolone resistance selection on the global transcriptional response in gatifloxacin-resistant C. perfringens strains 13124R and NCTRR by microarray analysis. The fluoroquinolone resistance selection resulted in alteration of transcription levels of a significant number of genes involved in almost every aspect of metabolism in the resistant mutants of both strains in comparison with their wild types.